The overall objective of this proposal is to elucidate the mechanism of early and late preconditioning against lethal ischemia. Our major hypothesis is that a mild increase in intracellular Ca++ effected by experimental and pharmacological interventions is a strong trigger for preconditioning and protein kinase C is a major player in the signaling cascade leading to protection. The opening of mitochondrial KATP channel which is believed to be pivotal in protection is dependent on the activation of PKC by intracellular [Ca++]i increase. Mitochondria which occupy a third of total cellular volume and perform multifactorial functions play a significant role in the survival of myocytes in stress and ischemic conditions. Under immediate stress conditions, the opening of mitochondrial KATP channel maintains the cell integrity by regulation of Ca++ homeostasis and increased ATP synthesis while the delayed protection is mediated by augmented synthesis of antioxidants. Both cell cultures and intact hearts will be used.
The specific aims are to: determine whether [Ca++]i fluctuations by oxidative stress elicit both early and late protection; whether [Ca++]i mediated activation of PKC is responsible for early and late PC; whether opening of mitochondrial KATP channel is important in protection in late PC; whether opening of mitochondrial KATP channel is dependent on PKC activation and its translocation to mitochondria during early and late PC; if early and late PC by [Ca++]i reduces cell injury by inhibiting apoptosis by regulating permeability transition; if late PC by [Ca++]i is due to synthesis of antioxidants which inhibits apoptosis. A wide range of multidisciplinary techniques, including biochemistry, cell biology, molecular biology, electron microscopy, immunocytochemistry and pharmacological approaches will be used to integrate the information at the cell level with the function at the organ level. This investigation will produce important new insights into the molecular mechanisms of preconditioning and will have important implications for designing therapeutic interventions based on the unique endogenous adaptive responses by the myocardium.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL023597-18
Application #
6183553
Study Section
Experimental Cardiovascular Sciences Study Section (ECS)
Project Start
1979-05-01
Project End
2004-06-30
Budget Start
2000-07-01
Budget End
2001-06-30
Support Year
18
Fiscal Year
2000
Total Cost
$308,380
Indirect Cost
Name
University of Cincinnati
Department
Pathology
Type
Schools of Medicine
DUNS #
City
Cincinnati
State
OH
Country
United States
Zip Code
45221
Idris, Niagara Muhammad; Ashraf, Muhammad; Ahmed, Rafeeq P H et al. (2012) Activation of IL-11/STAT3 pathway in preconditioned human skeletal myoblasts blocks apoptotic cascade under oxidant stress. Regen Med 7:47-57
Haider, Khawaja Husnain; Ashraf, Muhammad (2012) Preconditioning approach in stem cell therapy for the treatment of infarcted heart. Prog Mol Biol Transl Sci 111:323-56
Haider, Husnain Kh; Ashraf, Muhammad (2010) Preconditioning and stem cell survival. J Cardiovasc Transl Res 3:89-102
Dai, Ying; Ashraf, Muhammad; Zuo, Shi et al. (2008) Mobilized bone marrow progenitor cells serve as donors of cytoprotective genes for cardiac repair. J Mol Cell Cardiol 44:607-17
Jiang, Shujia; Kh Haider, Husnain; Ahmed, Rafeeq P H et al. (2008) Transcriptional profiling of young and old mesenchymal stem cells in response to oxygen deprivation and reparability of the infarcted myocardium. J Mol Cell Cardiol 44:582-96
Pasha, Zeeshan; Wang, Yigang; Sheikh, Riazuddin et al. (2008) Preconditioning enhances cell survival and differentiation of stem cells during transplantation in infarcted myocardium. Cardiovasc Res 77:134-42
Haider, Husnain Kh; Ashraf, Muhammad (2008) Strategies to promote donor cell survival: combining preconditioning approach with stem cell transplantation. J Mol Cell Cardiol 45:554-66
Shujia, Jiang; Haider, Husnain Khawaja; Idris, Niagara Muhammad et al. (2008) Stable therapeutic effects of mesenchymal stem cell-based multiple gene delivery for cardiac repair. Cardiovasc Res 77:525-33
Elmadbouh, I; Haider, Husnain Kh; Jiang, Shujia et al. (2007) Ex vivo delivered stromal cell-derived factor-1alpha promotes stem cell homing and induces angiomyogenesis in the infarcted myocardium. J Mol Cell Cardiol 42:792-803
Haider, Husnain K; Ye, Lei; Ashraf, Muhammad (2007) Skeletal muscle derived stem cells for myocardial repair. Recent Pat Cardiovasc Drug Discov 2:205-13

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